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Anomalous enhancement of humid CO2 capture by local surface bound water in polar carbon nanopores

Zhe Zheng, Yongsheng Wang, Miao Wang, Guohua Zhao, Guang‐Ping Hao, An‐Hui Lu

2024Nature Communications41 citationsDOIOpen Access PDF

Abstract

Removal of confined space carbon dioxide (CO2) that is in low concentration and with coexisting water is necessary but challenging by physical adsorption method. To make the removal process effective, rendering the nanopore surface hydrophobic to resist water is the popular way. Instead of preventing water from occupying the nanopores, in this work, we propose to utilize the guest water for the spatially selective formation of local surface bound water and further induce the preferential CO2 capture. We observe an anomalous enhancement of CO2 capture performance under humid conditions over carbon nanopores with spatially selective polar sites. It is evidenced that the surface bound water is formed at non-CO2-selective areas of polar carbon nanopores, thus creating additional CO2 trapping sites. This work may inspire the design of environment tolerable materials for molecular separation and purification under harsh conditions. The removal of low-concentration humid CO2 from confined space is necessary but challenging. Here, the authors propose a strategy to boost the humid CO2 removal performance by dynamically optimizing polar carbon nanopores with the formation of local surface bound water.

Topics & Concepts

NanoporePolarCarbon fibersSurface (topology)Chemical physicsMaterials scienceNanotechnologyChemical engineeringChemistryComposite materialPhysicsGeometryComposite numberEngineeringAstronomyMathematicsQuantum, superfluid, helium dynamicsPhase Equilibria and ThermodynamicsCarbon Dioxide Capture Technologies
Anomalous enhancement of humid CO2 capture by local surface bound water in polar carbon nanopores | Litcius